Influence of wind speed on optical properties of aerosols in the marine boundary layer measured by ship-borne DePolarization Lidar in the coastal area of Korea
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- Influence of wind speed on optical properties of aerosols in the marine boundary layer measured by ship-borne DePolarization Lidar in the coastal area of Korea
- Other Titles
- 연구선 탑재 비편광 라이다를 활용한 한반도 연안 해양 대기 경계층에서 풍속이 에어로솔의 광학적 성질에 미치는 영향 평가
- Shin, D.
Kim, Young J.
Chae, Nam Yi
Yoon, Young Jun
Noh, Young Min
- Aerosol optical properties; DePolarization Lidar; Marine boundary layer; Wind speed; the Korean Icebreaking research vessel
- Issue Date
- Shin, D., et al. 2014. "Influence of wind speed on optical properties of aerosols in the marine boundary layer measured by ship-borne DePolarization Lidar in the coastal area of Korea". ATMOSPHERIC ENVIRONMENT, 83(N): 282-290.
- Shipboard measurements of microphysical and optical properties of marine boundary-layer aerosols were performed around the Korean Peninsula from 2 to 5 December 2009. The measurements were conducted aboard the Korean icebreaking research vessel Araon during cruise tracks in the East Sea of Korea near Busan and Pohang. This paper describes the results of optical aerosol measurements acquired with a DePolarization Lidar (DPL) and an optical particle counter (OPC) and data on meteorological parameters. Backward trajectory analyses indicate that two different aerosol characteristics according to different pathways of air mass were encountered during the cruise. We find a high correlation between wind speeds across the east coast of Korea and extinction coefficient, depolarization ratio and mass concentration Correlation coefficient (R2) are 0.57, 0.52 and 0.67, respectively. The increase of extinction coefficient, depolarization ratio and number concentration with wind speed may have been caused by the increase of sea-salt aerosol production and transport.
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